SU1048336A1 - Thermoconverter thermal lag index determination method - Google Patents

Abstract

METHOD OF DETERMINING THE INDICATOR OF HEAT INERTIES OF A THERMAL CONSERVATOR Augmentation aug a keynote a temperature jump to a thermal converter, measure the output signal of a thermal converter, determine the equal time of the output signal of the thermal converter, a given reference level, a change of time, a difference of time, a difference, a difference, a difference, a difference, a difference, and a time, is selected by the protivopolojny sign of the signal, under the influence of a temperature jump. Determination of the second moment of equalities and the output signal of the thermal converter to the reference level, finding the time interval At between the first and second moments of equality of the output signal of the thermal converter supporting-; level and calculation of the thermal inertia index of the thermal conversion. V by the formula, characterized in that, in order to improve the accuracy of determining the thermal inertia index, with the secondary equality of the output of the thermal converter, the reference level is repeated in "2" the conversion ratio of the output signal of the thermal converter, and the sign of the change in the conversion coefficient is chosen opposite ., the sign of the SPV signal under the influence of a temperature jump, the second time interval is determined by the second and third moments of the equality of the output signal the reference level, and the indicator is warm. howl inertia is calculated by the formula: -l (V) 4 (n, and) lt2- (, 00 oo with oo:

Description

The invention relates to electrical measuring technology, more precisely, to heat engineering measurements, and can be used to measure the thermal inertia indicator of industrial thermal converters (thermoelectric converters, resistance thermal converters) in laboratory and factory conditions. The known method of determining the thermal inertia index of the thermal converter 1, which consists in applying a temperature jump to the thermal converter, recording the signals of the thermal converter and and U2 at two points in time t. and, where M is a constant characterizing the thermal converter and calculating the thermal inertia index using the formula -t.- t. . - (-4: The disadvantages of the method are significant errors due to the need to register signals of the thermocouple at different levels of the transient curve, where the slope of the transient curve is different, as well as the need to determine the parameter M, the closest to the technical essence is the thermal inertia index of the thermoformer, which consists in applying a temperature jump to the thermocouple, measuring the output signal of the thermoconverter, determining the moment of equality of the output signal of the thermal converter to a predetermined reference level and measurement at this time is P-, times the conversion coefficient of the signal of the thermal converter whose sign of change is chosen opposite to the signal T1al under the influence of the temperature jump determining the second moment of the equality of the output signal of the thermal converter to the reference level, the time interval At between the first and second moments of the equality of the output signal of the thermal converter to the reference level and the calculation of l thermal inertia according to the formula 2. The disadvantage of this method is low accuracy in the case of the presence of a constant component in the output signal of the thermal converter. The purpose of the invention is to improve the accuracy of determining the rate of thermal inertia of a thermocouple. This goal is achieved by the fact that according to the method of determining the thermal inertia index of the thermal converter, which involves supplying a temperature jump to the thermoconverter, measuring the output signal of the thermal converter, determining whether the output signal of the thermal converter is equal to the specified reference level and changing at that time a factor of the conversion factor of the thermal converter, the sign of the change of which is chosen opposite to the sign of the Signal under the influence of a temperature jump determining the second moment of equality of the output signal of the thermal converter to the reference level, finding the time interval Ai between the first and second moments of equality of the output signal of the thermal converter to the reference level and calculating the thermal inertia index of the thermal converter according to the formula, with the secondary equality of the output signal of the thermal converter the reference level again into fi ras the conversion factor of the output signal of the thermal converter, and the sign of the change in the conversion coefficient is chosen are opposite to the sign of the signal changes under the influence of the temperature jump, determining a second time interval At2mezhdu second and third moments output equality Thermocouples reference level, and the inertia parameter is calculated by the formula -. ,,,. ; 2 ((2-. The method of determining the thermal inertia index is illustrated in the drawing, where U {t) is the conversion, the output signal of the thermal converter, t is the time, UQ is the reference level, t -t is -1 d-fc. T; - -t, respectively, the first and second periods. The thermal inertia index of the thermal converter is determined as follows: When a temperature jump is applied to the thermal converter, the output signal changes according to the exponential law U (t) (u, -UJe where η is the output signals of the thermal converter corresponding to the initial temperature and the temperature of the cooling medium. At the moment (point A) of the equality of the output signal to the reference level Uo, the conversion factor of the output signal of the thermocoupler changes abruptly n times, and the output signal becomes and (j (point B) and continues to change exponentially law, it reaches for the second time the reference level UQ (point B).

Claims (1)

METHOD FOR DETERMINING THE INDICATOR OF THERMAL INERTIA OF THE THERMAL CONVERTER, which consists in giving the pace; a jump to the thermoconverter, measuring the output signal of the thermoconverter, determining the instant of equality of the output signal of the thermoconverter to the given reference level and changing at this time in Hz the conversion factor of the signal of the thermoconverter, whose sign of change is chosen opposite to the signal sign under the influence of the temperature jump, Determining the second moment of equality of the output signal of the thermal converter to the reference level, finding the time interval between the first and second moments of equality of the output signal of the thermal converter of the reference; level and calculating the thermal inertia index thermoconverted. For V according to the formula, I differ in that, in order to increase the accuracy of determining the thermal inertia index, when the output signal of the thermal converter is second to the reference level, the conversion coefficient of the output signal of the thermal converter is changed by a factor of 2 and more, and the sign of the ® transform coefficient is selected by the opposite., the sign of the signal changes under the influence of the temperature jump, determining a second time interval 2) <2 ^Mey CH1U second and third moments termopreo equality output raeovatelya reference level, and the rate of thermal inertia is calculated by the formula: \ '^ [ ^P 2 ( ^P <MCH'(' ^P 2-M ⁴ ^'& 00 GO GO> (ίι: